TeamVectorRange#

Header File: <Kokkos_Core.hpp>

Usage#

parallel_for(TeamVectorRange(team,range), [=] (int i) {...});
parallel_reduce(TeamVectorRange(team,begin,end),
    [=] (int i, double& lsum) {...},sum);

TeamVectorRange is a nested execution policy used inside hierarchical parallelism. In contrast to global policies, the public interface for nested policies is implemented as functions, in order to enable implicit templating on the execution space type via the team handle.

Synopsis#

template<class TeamMemberType, class iType>
/* implementation defined */ TeamVectorRange(TeamMemberType team, iType count);
template<class TeamMemberType, class iType1, class iType2>
/* implementation defined */ TeamVectorRange(TeamMemberType team, iType1 begin, iType2 end);

Description#

template<class TeamMemberType, class iType>
/* implementation defined */ TeamVectorRange(TeamMemberType team, iType count);

Splits the index range 0 to count-1 over the threads of the team and their vector lanes.

  • Arguments

    • team: a handle to the calling team execution context.

    • count: index range length.

  • Returns

    • Implementation defined type.

  • Requirements

    • TeamMemberType is a type that models TeamHandle

    • std::is_integral<iType>::value is true.

    • Every member thread of team must call the operation in the same branch, i.e. it is not legal to have some

      threads call this function in one branch, and the other threads of team call it in another branch.

    • count >= 0 is true;

template<class TeamMemberType, class iType1, class iType2>
/* implementation defined */ TeamVectorRange(TeamMemberType team, iType1 begin, iType2 end);

Splits the index range begin to end-1 over the threads of the team and their vector lanes.

  • Arguments

    • team: a handle to the calling team execution context.

    • begin: index range begin.

    • end: index range end.

  • Returns

    • Implementation defined type.

  • Requirements

    • TeamMemberType is a type that models TeamHandle

    • std::is_integral<iType1>::value is true.

    • std::is_integral<iType2>::value is true.

    • Every member thread of team must call the operation in the same branch, i.e. it is not legal to have some threads call this function in one branch, and the other threads of team call it in another branch..

    • end >= begin is true;

Examples#

typedef TeamPolicy<>::member_type team_handle;
parallel_for(TeamPolicy<>(N,AUTO,4), KOKKOS_LAMBDA (const team_handle& team) {
    int n = team.league_rank();
    parallel_for(TeamVectorRange(team,M), [&] (const int& i) {
        A(n,i) = B(n) + i;
    });
    team.team_barrier();
    int team_sum;
    parallel_reduce(TeamVectorRange(team,M), [&] (const int& i, int& lsum) {
        lsum += A(n,i);
    },team_sum);
    single(PerTeam(team),[&] () {
        A_rowsum(n) += team_sum;
    });
});